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Pattern formation by local self‐activation and lateral inhibition
Bioessays 22 (8):753-760 (2000)
Abstract
In 1972, we proposed a theory of biological pattern formation in which concentration maxima of pattern forming substances are generated through local self- enhancement in conjunction with long range inhibition. Since then, much evidence in various developmental systems has confirmed the importance of autocatalytic feedback loops combined with inhibitory interaction. Examples are found in the formation of embryonal organizing regions, in segmentation, in the polarization of individual cells, and in gene activation. By computer simulations, we have shown that the theory accounts for much of the regulatory phenomena observed, including signalling to regenerate removed parts. These self- regulatory features contribute to making development robust and error-tolerant. Furthermore, the resulting pattern is, to a large extent, independent of the details provided by initial conditions and inducing signals.Author's Profile
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Citations of this work
Physical Determinants in the Emergence and Inheritance of Multicellular Form.Stuart A. Newman & Marta Linde-Medina - 2013 - Biological Theory 8 (3):274-285.
Modularity in vertebrate brain development and evolution.Christoph Redies & Luis Puelles - 2001 - Bioessays 23 (12):1100-1111.
The radial‐symmetric hydra and the evolution of the bilateral body plan: an old body became a young brain.Hans Meinhardt - 2002 - Bioessays 24 (2):185-191.
References found in this work
A theory of biological pattern formation.Alfred Gierer & Hans Meinhardt - 1972 - Kybernetik, Continued as Biological Cybernetics 12 (1):30 - 39.
Generation of Biological Patterns and Form: Some Physical, Mathematical and Logical Aspects.Alfred Gierer - 1981 - Progress in Biophysics and Molecular Biology 37 (1):1-48.
Organization of early development by calcium patterns.Lionel F. Jaffe - 1999 - Bioessays 21 (8):657-667.
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